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Evoked potential recorder based on time characteristic indicators

An evoked potential, recorder technology, applied in the directions of diagnostic recording/measurement, medical science, sensors, etc., can solve the problems of large system error, monotonicity, large delay variability, etc., to save workload and reduce inaccuracy. Effect

Inactive Publication Date: 2010-06-02
SOUTHERN MEDICAL UNIVERSITY
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Problems solved by technology

[0011] However, the evoked potential instruments used in existing clinical and scientific research and described in various patents do not have the ability to calculate and output directly reflect the physiological functions of the auditory system (even the nervous system) (such as acoustic-electric conversion, mechanical transmission of sound and bioelectricity). In the transmission of the nervous system, the sensitivity of neurons) and the indicators of state changes; when the sound is stimulated, it is repeated multiple times of a single sound, which is too monotonous and has a large system error; at the same time, the ascending and descending segments of short sounds are often ignored The function of its amplitude time variation function, not only the variability of the obtained results (such as the delay of the short latency wave) is large, but also the obtained data cannot be systematically and effectively processed due to insufficient data continuity

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  • Evoked potential recorder based on time characteristic indicators
  • Evoked potential recorder based on time characteristic indicators
  • Evoked potential recorder based on time characteristic indicators

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Embodiment approach

[0036] Various complex acoustic stimulation signals can be completed by two parts, short sound signal and short sound release. Short voices are mainly given in various ways, such as single, random, mixed, regular, etc. The most basic physical quantity of a short sound signal is nothing more than amplitude, frequency and time, that is, the change of sound wave amplitude and frequency with time. The amplitude of the acoustic stimulation signal is regulated by the sound time envelope wave: including rising time, steady state time and falling time (the duration of the three sections is the sound length), the amplitude time variation function of the rising and falling sections; the frequency of the acoustic stimulation signal includes pure tone, frequency modulation Tones, clicks, and noises, etc., are generated by a frequency generator. A complete acoustic stimulation protocol includes acoustic stimulus signal editing and scanning task control.

[0037] 1. Stimulus sound signal ...

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Abstract

The invention discloses an evoked potential recorder based on time characteristic indicators, which can carry out the computation and the function indicator measurement based on the following functional relation: L-Lmin=ae-bx or lg(L-Lmin)=-Bx+A, wherein L is response delay of a nervous system to a certain frequency simulating signal, x is logarithm of instantaneous strength of the simulating signal or constant coefficient of an increasing function; P(t) is the instantaneous strength; and Lmin, a and b, A(A=lga) and B(B=b / ln10), and K and T are constants relevant to the time response characteristics of the nervous system. Lmin is the shortest delay, T is a time conversion coefficient, K is a time (sound-electricity) conversion index, and the Lmin, the T and the K can respectively reflect various physiological functions and changes thereof of transfer characteristics of nerve fibers and synapses of hair cells, mechanical transfer characteristics of sound, sensibility of auditory center system nerve cells, sound-electricity conversion characteristics and the like.

Description

technical field [0001] The invention relates to an evoked potential analysis method using time characteristics as an index, and an evoked potential recorder based on the method. technical background [0002] Auditory evoked potential is a series of electrical activities that occur in the auditory nerve pathway when the organism receives certain sound stimuli. Recording the evoked potentials at all levels of auditory nerve nuclei is called the near-field recording method; the auditory evoked potentials recorded in the near-field have a large amplitude and a high signal-to-noise ratio. Generally, a relatively stable waveform can be obtained after a few times of superimposition. Recording the evoked potential on the surface of the scalp is called the far-field recording method; the auditory evoked potential recorded by the far-field has a small amplitude and a low signal-to-noise ratio, and it usually takes hundreds of times of superposition to obtain a relatively stable wavefo...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61B5/0402
Inventor 肖中举梁妃学邓亲恺周凌宏
Owner SOUTHERN MEDICAL UNIVERSITY
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